Prediction of take-all disease risk in field soils using a rapid and quantitative DNA soil assay

A rapid, routine DNA-based assay to quantify Gaeumannomyces graminis var. tritici (Ggt), the causal agent of take-all disease of cereals, has been developed and used for the prediction of take-all in a wide range of field soils. Based on the correlation of the DNA-based assay and a soil bioassay, the risk of disease development can be estimated. Ggt DNA levels of <30 pg, 30–50 pg and >50 pg in 0.1 g soil organic matter correspond to low, moderate and high levels of the disease, respectively. Limitations in the prediction of take-all, including sampling requirements to obtain representative soil samples from fields and increasing the sensitivity and the accuracy of the DNA assay, are described. The main advantage in using the DNA-based assay, in estimating the amount of Ggt inoculum in soil, is that the levels of Ggt in soil samples can be assessed rapidly and accurately. Farmers can now have soil samples assessed before sowing. The DNA result can be used to predict the potential yield loss and determine the most appropriate management options using decision support software that is currently available. This DNA technology is currently being used commercially to detect and predict take-all. This revised version was published online in June 2006 with corrections to the Cover Date.